In situ quantification of the nucleation and growth of Fe-rich intermetallics during Al alloy solidification

Real-time in situ synchrotron X-ray tomographic microscopy was used to gain new insights into and quantify the nucleation mechanisms and growth kinetics of β-Al5FeSi intermetallics during solidification of an aluminium Al–7.5Si–3.5Cu–0.6Fe (wt.%) alloy. Three new insights were obtained. First, the p...

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Veröffentlicht in:	Acta materialia 2014-10, Vol.79, p.292-303
Hauptverfasser:	Puncreobutr, C., Phillion, A.B., Fife, J.L., Rockett, P., Horsfield, A.P., Lee, P.D.
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Sprache:	eng
Schlagworte:	Aluminium Aluminium–silicon–copper alloys Aluminum Aluminum base alloys Applied sciences Dendritic structure Exact sciences and technology Formations In situ solidification Intermetallics Metals. Metallurgy Nucleation Solidification Synchrotron X-ray tomographic microscopy
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creator	Puncreobutr, C. Phillion, A.B. Fife, J.L. Rockett, P. Horsfield, A.P. Lee, P.D.
description	Real-time in situ synchrotron X-ray tomographic microscopy was used to gain new insights into and quantify the nucleation mechanisms and growth kinetics of β-Al5FeSi intermetallics during solidification of an aluminium Al–7.5Si–3.5Cu–0.6Fe (wt.%) alloy. Three new insights were obtained. First, the plate-like β-intermetallics appeared to nucleate mainly on or near the primary aluminium dendrites and to a lesser extent off the oxide skin on the surface of the specimen. Second, for this alloy composition, β-intermetallic formation was largely complete before the formation of Al–Si eutectic. Third, the β-intermetallics formed via fast lateral growth, wrapping around and in between the primary dendrite arms. Further, the nucleation and growth dynamics of β-intermetallics were quantified as a function of undercooling in a functional form that could be easily used in microstructural simulations. The frequency of intermetallic interaction mechanisms, such as plate nucleation vs. impingement and branching, were also quantified.
doi_str_mv	10.1016/j.actamat.2014.07.018
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Three new insights were obtained. First, the plate-like β-intermetallics appeared to nucleate mainly on or near the primary aluminium dendrites and to a lesser extent off the oxide skin on the surface of the specimen. Second, for this alloy composition, β-intermetallic formation was largely complete before the formation of Al–Si eutectic. Third, the β-intermetallics formed via fast lateral growth, wrapping around and in between the primary dendrite arms. Further, the nucleation and growth dynamics of β-intermetallics were quantified as a function of undercooling in a functional form that could be easily used in microstructural simulations. 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Three new insights were obtained. First, the plate-like β-intermetallics appeared to nucleate mainly on or near the primary aluminium dendrites and to a lesser extent off the oxide skin on the surface of the specimen. Second, for this alloy composition, β-intermetallic formation was largely complete before the formation of Al–Si eutectic. Third, the β-intermetallics formed via fast lateral growth, wrapping around and in between the primary dendrite arms. Further, the nucleation and growth dynamics of β-intermetallics were quantified as a function of undercooling in a functional form that could be easily used in microstructural simulations. The frequency of intermetallic interaction mechanisms, such as plate nucleation vs. impingement and branching, were also quantified.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.actamat.2014.07.018</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aluminium Aluminium–silicon–copper alloys Aluminum Aluminum base alloys Applied sciences Dendritic structure Exact sciences and technology Formations In situ solidification Intermetallics Metals. Metallurgy Nucleation Solidification Synchrotron X-ray tomographic microscopy
title	In situ quantification of the nucleation and growth of Fe-rich intermetallics during Al alloy solidification
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